- Stratified charge engine
The stratified charge engine is a type of
internal-combustion engine , similar in some ways to theDiesel cycle , but running on normalgasoline . The name refers to the layering offuel /air mixture, the "charge" inside the cylinder.In a traditional
Otto cycle engine the fuel and air are mixed outside the cylinder and are drawn into it during the intake stroke. The air/fuel ratio is kept very close tostoichiometric , which is defined as the exact amount of air necessary for a complete combustion of the fuel. This mixture is easily ignited and burns smoothly.The problem with this design is that after the combustion process is complete, the resulting exhaust stream contains a considerable amount of free single
atoms ofoxygen andnitrogen , the result of theheat of combustion splitting the O2 and N2molecule s in the air. These will readily react with each other to create NOx, a pollutant. Acatalytic converter in theexhaust system re-combines the NOx back into O2 and N2 in modern vehicles.A direct injection Diesel engine, on the other hand, injects diesel fuel (which is heavier and resistant to vapourisation) directly into the cylinder, the combustion chamber is in the top of the piston. This has the advantage of avoiding premature spontaneous combustion—a problem known as detonation or ping that plagues Otto cycle engines—and allows the Diesel to run at much higher
compression ratio s. This leads to a more fuel-efficient engine. That is why they are commonly found in applications where they are being run for long periods of time, such as in trucks.However the Diesel engine has problems as well. The fuel is sprayed right into the highly compressed air and has little time to mix properly. This leads to portions of the charge remaining almost entirely air and others almost entirely of unburnt fuel lacking for oxygen. This incomplete combustion leads to the presence of other pollutants such as partially burnt and unburnt fuel -
polycyclic aromatic hydrocarbon s and the plainly visible exhaustsoot . The indirect injection diesel where fuel is injected into a pre-chamber, (the best known beingRicardo Consulting Engineers "Ricardo Comet" design), where the flame front from the pre chamber ignition leads to better mixing of the air and fuel, smoother combustion in the cylinder, and a reduction in diesel knock. Indirect injection diesels are a kind of stratified charge engine. These benefits came at the cost of a 10% efficiency reduction compared to direct injection diesels.The stratified charge design attempts to fix the problems with both fuels. It uses a direct-
injection system , like the Diesel, with its inherent ability to be run at efficient high compressions. However, like the Otto, it relies ongasoline 's ability to mix quickly and cleanly in order to avoid the poor combustion found in older direct injection Diesels.To do this the
fuel injector s are aimed to inject the fuel into only one area of the cylinder, often a small "subcylinder" at the top, or periphery, of the main cylinder. This provides a rich charge in that area that ignites easily and burns quickly and smoothly. As the combustion process proceedes it moves to a very lean area (often only air) where the flame-front cools rapidly and the harmful NOx has little opportunity to form. The additional oxygen in the lean charge also combines with any CO to form CO2, which is less harmful. This technology has also been applied to the latest electronically controlled direct injection diesels. The injection system on these engines delivers the fuel in multiple injection bursts to ensure better fuel/air mixing and reduced diesel knock.The much cleaner combustion in stratified charge petrol engines allows for the elimination of the catalytic converter and allows the engine to be run at leaner mixtures, using less fuel. It has had a similar effect on diesel engine performance. Today's diesels are cleaner and can be twice as powerful as before, while maintaining similar fuel economy.
After years of trying, this layout has proven not to be terribly easy to arrange. The system has been used for many years in slow-running industrial applications, but has generally failed to develop into an
automobile engine . Many attempts have been made over the years, notably inWankel engine applications, but only theJapan ese car manufacturers have pressed ahead with piston-engine development. It is estimated that they have spent several hundreds of millions of dollars in R&D since the 1970s.Honda 'sCVCC engine, released in the early 1970s models of Civic, then Accord and City later in the decade, is a form of stratified charge engine that had wide market acceptance for considerable time. The CVCC system had conventional inlet and exhaust valves and a third, supplementary, inlet valve that charged an area around the spark plug. The spark plug and CVCC inlet was isolated from the main cylinder by a perforated metal plate. At ignition a series of flame fronts shot into the very lean main charge, through the perforations, ensuring complete ignition. In the Honda City Turbo such engines produced a highpower-to-weight ratio at engine speeds of 7,000 rpm and above.Jaguar Cars in the 1980sJaguar V12 engine , H.E. (so called High Efficiency) version fitted in theJaguar XJ 12 andJaguar XJS models, used a stratified charge design called the 'May Fireball' in order to reduce the engine's very heavy fuel consumption.Today, however, several stratified charge petrol/gasoline engines are appearing on the market.
Mazda andMitsubishi both have cars using these designs,Volvo Cars recently teamed with Mitsubishi to produce their designs inEurope ,Audi has a car using the design andPSA Peugeot Citroën has developed such an engine. The primary "sales advantage" of these engines is fuel economy. They run at a leaner setting and use, about, 15 to 20% less fuel than non-stratified designs.ee also
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Lean burn
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